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CN200993746Y - Low dropout voltage stabilizer - Google Patents

Low dropout voltage stabilizer Download PDF

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Publication number
CN200993746Y
CN200993746Y CN 200620172920 CN200620172920U CN200993746Y CN 200993746 Y CN200993746 Y CN 200993746Y CN 200620172920 CN200620172920 CN 200620172920 CN 200620172920 U CN200620172920 U CN 200620172920U CN 200993746 Y CN200993746 Y CN 200993746Y
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CN
China
Prior art keywords
voltage
transmission transistor
type transmission
output
low dropout
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Expired - Fee Related
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CN 200620172920
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Chinese (zh)
Inventor
杨大勇
林志和
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Fairchild Taiwan Corp
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System General Corp Taiwan
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Priority to CN 200620172920 priority Critical patent/CN200993746Y/en
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Abstract

The utility model discloses a LDO regulator, which comprises a P type transmission transistor and an N type transmission transistor which are used to supply power to an output end. The P-typed transmission transistor and the N-typed transmission transistor are arranged in parallel, and two error amplifiers are applied to control the grids of the P type transmission transistor and the N type transmission transistor to generate the first output voltage and the second output voltage. Therefore, a first voltage is generated when the input voltage is higher than a threshold voltage, and a second voltage is generated when the input voltage is lower than the threshold voltage.

Description

Low dropout voltage regulator
Technical field
The utility model is a kind of mu balanced circuit, particularly a kind of low dropout voltage regulator with big input voltage range.
Background technology
Tool low pressure drop (low dropout; LDO) voltage stabilizer quite is widely used on the power-supply management system as computing machine, mobile phone, the vehicles or all the other electronic products.Power-supply management system uses low dropout voltage regulator as regional power supply unit.Low dropout voltage regulator must have pure output and fast transient response.Simultaneously, low dropout voltage regulator more makes power-supply management system that the extra voltage of supplying electric pressure less than general can effectively be provided.For instance, 5 volts or 12 volts voltage control system use low dropout voltage regulator can be supplied chipset or 2.5 volts pure and 3.3 volts voltage signal of internal memory partly.
Although low dropout voltage regulator is transfer power quite efficiently, he but has the characteristics that volume is little, cost is not high, and quite little frequency interferences (frequencyinterference) is also only arranged.It can provide area circuit pure voltage in addition, and can be not influenced because of other regional current fluctuation (current fluctuations) of power-supply system.Therefore, when the power consumption of area circuit was quite small with respect to the load of whole power system, low dropout voltage regulator was widely used the power supply supply in area circuit.
One desirable low dropout voltage regulator provides accurately direct current output, simultaneously in load variations and import and have quick response when instantaneous.And because low dropout voltage regulator is widely used in the product of volume production, as computing machine and mobile phone, so simplicity of design and low production cost also are necessary.
Traditional voltage stabilizer includes the feedback control loop that is coupled to transmitting assembly, but the grid voltage of its modulation transmitting assembly and can control its impedance (impedance).According to grid voltage, transmitting assembly can be supplied the output area of the electric current of different brackets to power supply unit.Therefore, no matter the transient response of the situation of load and input, because grid voltage is by modulation, the former capital can provide galvanic current to press output.As shown in Figure 1, be the circuit diagram of known source electrode with coupling voltage stabilizer (sourcefollow regulator), it includes N type transmission transistor 10, feedback control circuit 11 and voltage divider 12, and voltage divider 12 has dividing point FB and two resistance 121,122.Source electrode receives unadjusted DC input voitage V with the coupling voltage stabilizer IN, and export adjusted VD V 0The reference signal V that feedback control circuit 11 includes error amplifier 15 and transfers to the positive input terminal of error amplifier 15 REFThe output terminal of error amplifier 15 is connected to the gate terminal G of N type transmission transistor 10, and DC input voitage V INTransfer to the drain electrode end D of N type transmission transistor 10, source terminal S then can transmit VD V 0VD V 0System sees through voltage divider 12 by feedback control circuit 11 and transmits.Resistance 121,122 is connected in series with VD V 0And with reference between the ground end, dividing point FB and connects back the negative input end of error amplifier 15 between two resistance 121,122.
This source electrode is good stable with the advantage of coupling voltage stabilizer, N type transmission transistor 10 provides and decays to backfeed loop, the gain (gain) in error amplifier 15 major control loops, and can reach enough gain margin (Gain Margin) and phase margins (PhaseMargin) easily.Another advantage is to have high power rejection than (Power SupplyRejection Ratio; PSRR), N type transmission transistor 10 receives DC input voitage V by drain electrode end D IN, therefore can have high impedance and resist by DC input voitage V INTo VD V 0Noise.Yet source electrode is that this kind voltage stabilizer has high pressure drop voltage with coupling voltage stabilizer shortcoming, and grid is to source voltage Vgs 1The critical voltage V that is higher than conducting N type transmission transistor 10 TDC input voitage V INWith VD V 0Between voltage difference limited VD V 0The upper limit.Drain to source voltage V DS1Be when N type transmission transistor 10 during, be positioned at the voltage drop of drain electrode end D and source terminal S in cut-off state.
See also Fig. 2, be the basic structure of low dropout voltage regulator, low dropout voltage regulator includes P type transmission transistor 20, feedback control circuit 21 and voltage divider 22, voltage divider 22 includes two resistance 221,222, the reference signal V that feedback control circuit 21 includes error amplifier 211 and transfers to the negative input end of error amplifier 211 REF, and the output terminal of error amplifier 211 is connected in the gate terminal G of P type transmission transistor 20.
Unadjusted DC input voitage V INTransfer to the source terminal S of P type transmission transistor 20, P type transmission transistor 20 is exported adjusted VD V by drain electrode end D 0, and VD V 0, see through resistance 221,222, be sent to the positive input terminal of error amplifier 211.Reference signal V REFBe passed to the negative input end of error amplifier 211.The advantage of this low dropout voltage regulator is low pressure drop voltage (LD0).P type transmission transistor 20 in grid to source voltage Vgs 2Be higher than its critical voltage V TThe time conducting, therefore the output terminal of error amplifier 211 can be connected to earth terminal, reaches one and has the quite low low dropout voltage regulator that inputs to output voltage.Drain to source voltage V DS2Be when P type transmission transistor 20 is cut-off state, be positioned at the voltage drop of drain electrode end D and source terminal S.
The shortcoming of this low dropout voltage regulator is as DC input voitage V INCan be tending towards unstable when big, P type transmission transistor 20 can provide significant the gain to backfeed loop.In addition because the Miller effect, stray capacitance (parasitic capacitor) 23 will be brought sizable capacitance at the output terminal of error amplifier 211, and can form limit in feedback cycle, and then influence the transfer function of voltage stabilizer, for the stability in loop, error amplifier 211 must possess has lower output impedance to make limit be moved to higher frequency.Yet, make error amplifier 211 have quite difficulty of lower output impedance, especially as input direct voltage V INWhen higher.
The another one problem of low dropout voltage regulator is relatively poor power rejection ratio, DC input voitage V INThe source terminal S that is passed to P type transmission transistor 20 is a Low ESR, DC input voitage V INNoise (noise) disturb the grid of P type transmission transistor 20 to source voltage Vgs quite easily 2Therefore, the high power rejection of development tool is an inexorable trend than the low dropout voltage regulator with big input voltage range.
The utility model content
At the problems referred to above, the purpose of this utility model provides a kind of low dropout voltage regulator, and it can be operated under big input voltage range, and has high power rejection ratio.
The technical solution of the utility model is such: low dropout voltage regulator includes N type transmission transistor, P type transmission transistor, control circuit, voltage divider, input end and output terminal; N type transmission transistor supplies power to output terminal, and the drain electrode end of N type transmission transistor is coupled to input end, and source terminal couples output terminal; And P type transmission transistor is connected with parallel way with N type transmission transistor, and the source terminal of P type transmission transistor is coupled to input end, and drain electrode end is coupled to output terminal.Reference signal inputs to control circuit, control circuit is coupled to output terminal and its output terminal is connected to the gate terminal of N type transmission transistor and the gate terminal of P type transmission transistor, and control N type transmission transistor and P type transmission transistor produce first output voltage and second output voltage according to reference signal, and wherein the design of first output voltage is higher than second output voltage; When input voltage is higher than critical voltage, can produces first output voltage, and when input voltage subcritical voltage, can produce second output voltage.
On the other hand, low dropout voltage regulator more can comprise circuit for detecting, can be when input voltage be higher than the input critical voltage, P type transmission transistor is ended, therefore, when inputing to output voltage when too high, low dropout voltage regulator can as have high power rejection than with the source electrode of loop stability with the general operation of coupling voltage stabilizer, and cross when low when inputing to output voltage, it can have low pressure drop voltage again.
Description of drawings
Fig. 1 is the circuit diagram of known source electrode with the coupling voltage stabilizer.
Fig. 2 is the circuit diagram of known low dropout voltage regulator.
Fig. 3 is the circuit diagram of the preferred embodiment of the utility model low dropout voltage regulator.
Fig. 4 is the circuit diagram of another preferred embodiment of the utility model low dropout voltage regulator.
Fig. 5 has the circuit diagram of the preferred embodiment of input voltage circuit for detecting for the utility model low dropout voltage regulator.
Embodiment
According to the disclosed low dropout voltage regulator of the utility model, as shown in Figure 3, be the preferred embodiment circuit diagram of the utility model low dropout voltage regulator, low dropout voltage regulator (LDOregulator) includes N type transmission transistor 31, P type transmission transistor 32, control circuit 30, voltage divider 35, input end 36 and output terminal 37.Low dropout voltage regulator receives unadjusted DC input voitage V by input end 36 IN, and in adjusting the back by output terminal 37 output VD V 0N type transmission transistor 31 supplies power to output terminal 37 by input end 36.N type transmission transistor 31 includes drain electrode end D, source terminal S and gate terminal G, and drain electrode end D is coupled to input end 36, and source terminal S is coupled to output terminal 37.P type transmission transistor 32 and N type transmission transistor 31 are connected with parallel way, and same, P type transmission transistor 32 also includes drain electrode end D, source terminal S and gate terminal G, and source terminal S is coupled to input end 36, and drain electrode end D is coupled to output terminal 37.
As shown in Figure 3, control circuit 30 includes two error amplifiers (erroramplifier) 33,34.Reference signal V REFBe transmitted into control circuit 30, error amplifier 33 sees through voltage divider 35 and is coupled to output terminal 37.Voltage divider 35 includes the resistance 351,352,353 that is serially connected with successively between output terminal 37 and the earth terminal, and the two ends of resistance 352 are respectively the first feedback signal contact and the second feedback signal contact, and can produce the first feedback signal V FB1With the second feedback signal V FB2The first feedback signal V FB1With the second feedback signal V FB2Be sent to the inverting input of error amplifier 33 and the in-phase input end of error amplifier 34 respectively, wherein the second feedback signal V FB2Be higher than the first feedback signal V FB1Error amplifier 33 is according to reference signal V REFControl N type transmission transistor 31 is to produce first output voltage V 01Error amplifier 34 sees through voltage divider 35 and is coupled to output terminal 37 according to reference signal V REFControl P type transmission transistor 32 produces second output voltage V 02, first output voltage V wherein 01With second output voltage V 02System can be represented by equation (1), (2):
V 01 = V REF × R 351 + R 352 + R 353 R 353 - - - ( 1 )
V 02 = V REF × R 351 + R 352 + R 353 R 352 + R 353 - - - ( 2 )
Wherein, R 351Resistance value for resistance 351;
R 352Resistance value for resistance 352;
R 353Resistance value for resistance 353;
Therefore, first output voltage V 01Can be a little more than second output voltage V 02
N type transmission transistor 31 supplies first output voltage V 01When its conducting and produce first output voltage V 01During to output terminal 37.As input voltage V INCross low and cause N type transmission transistor 31 by the time, P type transmission transistor 32 can conductings produce second output voltage V 02Be sent to output terminal 37.N type transmission transistor 31 and P type transmission transistor 32 be for being connected in parallel in output terminal 37, therefore, and input voltage V INBe higher than critical voltage V THThe time will produce first output voltage V 01, and input voltage V INSubcritical voltage V THThe time will produce second output voltage V 02To output terminal 37, critical voltage V THSystem can be illustrated by following equation (3):
V TH=Vo+Vgs (3)
Wherein, V GsThe grid that is N type transmission transistor 31 is to source voltage, in order to conducting N type transmission transistor 31, and V 0It is adjusted VD.
Because of the gain of error amplifier 33,34 is very big, when 31 conductings of N type transmission transistor, P type transmission transistor 32 can end.First output voltage V 01With second output voltage V 02Voltage difference delta V such as following equation (4), and can be ignored.
ΔV=V O1-V O2 (4)
Fig. 4 is the circuit diagram of another preferred embodiment of the utility model, two reference signal, the first reference signal V R1With the second reference signal V R2Be sent to the in-phase input end of error amplifier 33 and the inverting input of error amplifier 34 respectively.In this embodiment, voltage divider 35 includes the resistance 41,42 that is serially connected with successively between output terminal 37 and the earth terminal, and error amplifier 33,34 sees through resistance 41,42 and is coupled to output terminal 37. Error amplifier 33,34 is respectively according to the first reference signal V R1With the second reference signal V R2Control N type transmission transistor 31 produces first output voltage V respectively with P type transmission transistor 32 03With second output voltage V 04Wherein design first output voltage V 03The time can be a little more than second output voltage V O4, and satisfy following equation (5), (6):
V 03 = V R 1 × R 41 + R 42 R 42 - - - ( 5 )
V 04 = V R 2 × R 41 + R 42 R 42 - - - ( 6 )
R wherein 41It is the resistance value of resistance 41; R 42It is the resistance value of resistance 41.
Design the first reference signal V R1Can be a little more than the second reference signal V R2, so during 31 conductings of N type transmission transistor, produce first output voltage V 03To output terminal 37, and as input voltage V INCross low and can't conducting N type transmission transistor 31 time, 32 of P type transmission transistors can be switched on and produce second output voltage V 04To output terminal 37.
Seeing also Fig. 5, is the circuit diagram that the utility model low dropout voltage regulator more includes the preferred embodiment of circuit for detecting 50.As input voltage V INDuring for high levle, circuit for detecting 50 is used for need not seeing through backfeed loop by P type transmission transistor 32, has so improved input voltage V INTransient response during for high levle (transient response).Circuit for detecting 50 includes comparer 51 and two resistance 52,53.The in-phase input end of comparer 51 (positive input terminal) is in order to receive input critical voltage V TIN, inverting input (negative input terminal) then is coupled to input end 36 and detects input voltage V in order to see through resistance 52,53 INAs input voltage V INGreater than input critical voltage V TINThe time, feedforward signal (feedforward signal) E that the output terminal of comparer 51 produces NBBeing coupled to amplifier 34 ends P type transmission transistor 32.
The disclosed low dropout voltage regulator of the utility model inputing to output voltage when too high, is operated as the coupling voltage stabilizer as known source electrode, and have high power rejection than and loop stability, and cross when hanging down when inputing to output voltage, it can reach low pressure drop again.
Though the utility model discloses as above with aforesaid preferred embodiment; right its is not in order to limit the utility model; anyly have the knack of this skill person; in not breaking away from spirit and scope of the present utility model; when doing a little change and retouching, therefore protection domain of the present utility model is as the criterion when looking the accompanying Claim book scope person of defining.

Claims (7)

1, low dropout voltage regulator is characterized in that: include:
One input end is in order to receive an input voltage;
One output terminal is in order to be exported the adjusted output voltage of this input voltage;
One N type transmission transistor, in order to by this supplying power for input end to this output terminal, the drain electrode end of this N type transmission transistor is coupled to this input end, source terminal is coupled to this output terminal;
One P type transmission transistor, in order to by this supplying power for input end to this output terminal, the source terminal of this P type transmission transistor is coupled to this input end, drain electrode end is coupled to this output terminal; And
One control circuit, the output terminal of this control circuit is connected to the gate terminal of this N type transmission transistor and this P type transmission transistor, in order to control the gate terminal of this N type transmission transistor and this P type transmission transistor, make this N type transmission transistor and this one of them conducting of P type transmission transistor and export this output voltage.
2, low dropout voltage regulator according to claim 1, it is characterized in that: more include a voltage divider, be coupled to this output terminal, this voltage divider is provided with the first feedback signal output contact and the second feedback signal output contact, in order to produce one first feedback signal and second feedback signal according to this output voltage, wherein this control circuit can receive a reference signal, and control this N type transmission transistor according to this reference signal and this first feedback signal, control this P type transmission transistor according to this reference signal and this second feedback signal.
3, low dropout voltage regulator according to claim 2 is characterized in that: wherein this second feedback signal is higher than this first feedback signal.
4, low dropout voltage regulator according to claim 1 is characterized in that: more include a circuit for detecting, this circuit for detecting is coupled to this input end, and during greater than a critical voltage, this P type transmission transistor is ended at this input voltage.
5, low dropout voltage regulator according to claim 4 is characterized in that: wherein this circuit for detecting comprises two resistance at least.
6, low dropout voltage regulator according to claim 1, it is characterized in that: wherein this control circuit includes two error amplifiers, the output terminal of these two error amplifiers is connected to the gate terminal of this N type transmission transistor and the gate terminal of this P type transmission transistor, produce first output voltage to this output terminal in order to control this N type transmission transistor, produce second output voltage to this output terminal with this P type transmission transistor of control.
7, low dropout voltage regulator according to claim 6 is characterized in that: wherein this first output voltage lies in this input voltage and is higher than a critical voltage time institute produces, and this second output voltage lie in this input voltage when being lower than this critical voltage institute produce.
CN 200620172920 2006-12-22 2006-12-22 Low dropout voltage stabilizer Expired - Fee Related CN200993746Y (en)

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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101515184B (en) * 2008-02-21 2011-03-23 联发科技股份有限公司 Low drop out voltage regulator
CN101604173B (en) * 2008-04-11 2012-02-08 崇贸科技股份有限公司 Low drop-out regulator
CN103677045A (en) * 2013-11-28 2014-03-26 成都位时通科技有限公司 Voltage regulation circuit
CN104052273A (en) * 2013-06-17 2014-09-17 崇贸科技股份有限公司 Adjustable power converter and output selecting method and apparatus thereof
CN110032234A (en) * 2019-03-14 2019-07-19 北京安酷智芯科技有限公司 A kind of adjustable bias generating circuit of low noise

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101515184B (en) * 2008-02-21 2011-03-23 联发科技股份有限公司 Low drop out voltage regulator
CN101604173B (en) * 2008-04-11 2012-02-08 崇贸科技股份有限公司 Low drop-out regulator
CN104052273A (en) * 2013-06-17 2014-09-17 崇贸科技股份有限公司 Adjustable power converter and output selecting method and apparatus thereof
US9582054B2 (en) 2013-06-17 2017-02-28 System General Corp. Method and apparatus for selecting the output of programmable power adapter
CN104052273B (en) * 2013-06-17 2019-06-18 台湾快捷国际股份有限公司 Adjustable power converter and its method and apparatus of selection output
CN103677045A (en) * 2013-11-28 2014-03-26 成都位时通科技有限公司 Voltage regulation circuit
CN110032234A (en) * 2019-03-14 2019-07-19 北京安酷智芯科技有限公司 A kind of adjustable bias generating circuit of low noise

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C19 Lapse of patent right due to non-payment of the annual fee
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